Presenting a learning module to a patient based on sensor values and survey responses

ABSTRACT

A device receives a request to display a learning module. The device receives sensor values from a set of one or more sensor devices attached to a patient. The device displays a set of survey questions. The device receives user-specified responses to the set of survey questions. The device selects a first learning module from a plurality of learning modules based on the sensor values and the user-specified responses to the set of survey questions. The device displays the first learning module on the display in response to receiving the request to displaying the learning module.

CROSS-REFERENCE TO RELATED APPLICATIONS

This application is a continuation application of and claims priority toU.S. application Ser. No. 16/700,004, filed on Dec. 2, 2019, which is acontinuation of U.S. application Ser. No. 15/065,099, filed on Mar. 9,2016, which are incorporated in their entirety by this reference.

TECHNICAL FIELD

This disclosure relates to determining the display order of data itemsthat are displayed at a computing device based on contextual data thatis captured by sensor devices.

BACKGROUND

Computing devices can download, install and execute variousapplications. An application that can be downloaded and installed at amobile computing device may be referred to as a native application. Someapplications allow a user of the mobile computing device to manage alist of data items. In some scenarios, the data items may correspondwith tasks on a to-do list. In such scenarios, a task managementapplication can display the data items. In some examples, the data itemsmay correspond with various multimedia content such as videos, podcasts,etc. In such examples, a learning management application can manage thedata items. There may be a need to determine the display order of thedata items as the number of data items increases.

SUMMARY

One aspect of the disclosure provides a server. The server may include anetwork communication device, a storage device, and a processing device.The storage device may include a data item data store, a userinformation data store, and a scoring data store. The data item datastore can store data item records that correspond with data items. Adata item record may include a record identifier (ID) that identifiesthe data item record, information related to the corresponding dataitem, and a category associated with the corresponding data item. Theuser information data store may store user IDs that identify users, eachuser ID being associated with one or more record IDs. The scoring datastore stores a scoring model that utilizes one or more rules to scorethe categories associated with the data items.

The processing device executes computer-readable instructions that, whenexecuted by the processing device, cause the processing device toreceive a request for an ordered list of data items. The request mayinclude a user identifier (ID) and contextual data parameters thatindicate a context of a mobile computing device. The processing devicecan query the user information data store with the user ID specified inthe request and receive record IDs for data item records that areassociated with the user ID specified in the request. For each data itemrecord that is associated with the user ID specified in the request, theprocessing device can determine the category associated with thecorresponding data item. The processing device can determine, based onthe scoring model and the contextual data parameters specified in therequest, category scores for the categories associated with the request.The processing device generates the ordered list of data items based onthe category scores, the ordered list comprises the information relatedto each data item that is associated with the request and the categoryscore for the category associated with each data item. The processingdevice transmits the ordered list of data items via the networkcommunication device.

Another aspect of the disclosure provides a computing device (e.g., amobile computing device). The computing device may include a touchscreendisplay, one or more sensors, a memory that stores one or more nativeapplications that are installed at the computing device, and a computingprocessor. The computing device may include a short-range communicationsinterface, one or more on-die sensors, a sensor hub that manages the oneor more sensors and the one or more on-die sensors, a transceiver, andone or more central processing units (CPUs).

The one or more CPUs may execute computer-readable instructions that,when executed by the one or more CPUs, cause the one or more CPUs todisplay a list of data items via the touchscreen display. Each data itemmay include a text string, an image, a video and/or a link that canlaunch one of the native applications. The one or more CPUs can detect atrigger to re-order the data items in the list. The one or more CPUs cancapture contextual data that indicates a context of the mobile computingdevice. The contextual data may include sensor measurements. The one ormore CPUs may instruct the one or more sensors to record the sensormeasurements. The one or more CPUs may instruct the one or more on-diesensors to record the sensor measurements. The one or more CPUs mayreceive the sensor measurements via the short-range communicationsinterface. The one or more CPUs can generate a request to re-order thedata items in the list upon detecting the trigger. The request mayinclude the contextual data and the data item identifiers (IDs) thatidentify the data items. The one or more CPUs can transmit the requestvia the transceiver. In response to transmitting the request, the one ormore CPUs can receive an ordered list of data items. The ordered listmay specify the data item IDs and a rank for each data item ID. The oneor more CPUs can re-arrange the display order of the data items based onthe ranks of the data items.

The details of one or more implementations of the disclosure are setforth in the accompanying drawings and the description below. Otheraspects, features, and advantages will be apparent from the descriptionand drawings, and from the claims.

DESCRIPTION OF DRAWINGS

FIG. 1 is a schematic diagram of a system that determines the displayorder of data items based on contextual data.

FIG. 2A is a block diagram of a server that determines a display orderfor the data items based on the contextual data.

FIG. 2B-C are diagrams that illustrate example rules that the server mayutilize to determine the display order for the data items.

FIG. 3A is a block diagram of an example method that the server canexecute to determine the display order for the data items.

FIG. 3B is a block diagram of another example method that the server canexecute to determine the display order for the data items.

FIG. 4 is a block diagram of a mobile computing device that adjusts thedisplay order of data items based on contextual data.

FIG. 5 is a diagram that illustrates example surveys that the mobilecomputing device can utilize to capture the contextual data.

FIG. 6A is a schematic diagram that illustrates that the mobilecomputing device can receive the data items from a server in response toa search request.

FIG. 6B is a schematic diagram that illustrates that the mobilecomputing device can receive the data items from a server as a pushmessage.

FIG. 6C is a diagram that illustrates that the mobile computing devicecan display a graphical user interface for generating a data item.

FIG. 7 is a block diagram of an example method that the mobile computingdevice can execute to adjust the display order of data items in a listof data items.

Like reference symbols in the various drawings indicate like elements.

DETAILED DESCRIPTION

The present disclosure relates to determining the display order of dataitems on a computing device (e.g., a mobile computing device).Determining the display order of the data items may include adjusting(e.g., modifying) a current display order, for example, by re-arrangingthe data items. A data item may include a text string, an image, avideo, and/or a user-selectable link. The mobile computing device mayinclude a data item managing application that manages the data items. Insome examples, the data items may be referred to as tasks and the dataitem managing application may be referred to as a task managementapplication (e.g., a to-do list). In some examples, the data items maybe referred to as learning modules and the data item managingapplication may be referred to as a learning management application. Insuch examples, the learning management application can receive thelearning modules from a server, and present the learning modules to auser of the mobile computing device. In some examples, the data itemsmay be referred to as projects and the data item management applicationmay be referred to as a project management application.

The mobile computing device can automatically adjust the display orderof the data items based on contextual data. The contextual data mayinclude sensor measurements that the mobile computing device can receivefrom other electronic devices (e.g., via short-range communications suchas Bluetooth or Wi-Fi, or long-range communications such as cellularcommunications, the Internet, etc.). For example, the contextual datamay include a heart rate measurement from a wireless heart rate monitorand/or a wearable computing device. Similarly, the contextual data mayinclude a blood glucose level from a blood glucose monitor. Thecontextual data can also include information that is stored in otherapplications that are installed on the mobile computing device. Forexample, the contextual data may include information regarding calendarevents from a calendar application. Similarly, the contextual data mayinclude a time at which the user of the mobile computing device used asocial networking application or a messaging application. The contextualdata can also include user-specified responses to survey questions(e.g., a time at which the user consumed coffee).

Each data item may be associated with a category. Example categories forthe data items may include cognitively demanding, creative, mnemonic,and rote. Other categories are also contemplated. For example, each dataitem may be associated with a different category. Data items that are inthe cognitively demanding category may involve a high degree ofcognition. In other words, interacting with data items that are in thecognitively demanding category may require the user of the mobilecomputing device to acquire the information stored in the data item, andunderstand the information through thought, experience and the senses.Interacting with data items in the creative category may require acertain amount of creativity. In other words, viewing or acting uponcreative data items may involve imagination or original ideas.Interacting with data items in the mnemonic category may involveremembering or memorizing information. Lastly, interacting with dataitems in the rote category may involve repetition of habitual tasks.

At a given time, data items in a particular category may be morerelevant than data items in other categories based on the contextualdata. Accordingly, the mobile computing device can automaticallyre-arrange the data items based on the contextual data, so that the morerelevant data items are displayed towards the top of the list and theless relevant data items are displayed towards the bottom of the list.For example, the contextual data may indicate that the user hasexercised. In this example, the user may be more effective at performingmnemonic tasks than rote tasks. Accordingly, the mobile computing devicecan re-arrange the display order of the data items, so that data itemsin the mnemonic category are displayed above data items in the rotecategory. Similarly, if the contextual data indicates that the userrecently had a high dosage of a stimulant (e.g., caffeine), then theuser may be more effective at performing cognitively demanding tasksthan mnemonic tasks. In this example, the mobile computing device canre-arrange the display order of the data items, so that data items inthe cognitively demanding category are displayed above data items in themnemonic category.

FIG. 1 illustrates an example system 10 that may be used to determinethe display order of data items 472 at a mobile computing device 400.The system 10 includes the mobile computing device 400 and a server 200.The mobile computing device 400 and the server 200 may communicate via anetwork. The system 10 may also include various sensor devices 20 thatcan record sensor measurements. The sensor devices 20 may transmit thesensor measurements to the mobile computing device 400. Examples of thesensor devices 20 include a neuro device 20-1, a heart rate monitor20-2, a blood glucose monitor 20-3, an insulin pump 20-4, and a wearablecomputing device 20-5. In the example of FIG. 1 , the sensor devices 20communicate sensor measurements via short-range communications (e.g.,Bluetooth, Wi-Fi, etc.). Alternatively or additionally, the sensordevices 20 may communicate sensor measurements via long-rangecommunications (e.g., cellular communications, the Internet, etc.).

The mobile computing device 400 can download, install and executesoftware applications. Software applications that are installed at themobile computing device 400 may be referred to as native applications.One of the native applications may include an application that managesthe data items 472. Such an application may be referred to as a dataitem managing application. In some implementations, the data items 472may be referred to as tasks, and the data item managing application maybe referred to as task management application (e.g., a to-do listapplication, or a reminders application). As illustrated in FIG. 1 , themobile computing device 400 can display an icon 425 for the data itemmanaging application. In this example, the icon 425 for the data itemmanaging application includes the word “Tasks” as an icon caption. Upondetecting a user selection of the icon 425, the mobile computing device400 can launch the data item managing application, and display the dataitems 472.

The mobile computing device 400 can generate a request 450 to re-orderthe data items 472. The request 450 may include a device identifier (ID)452 and/or a user ID 454. The device ID 452 may include a string thatidentifies the mobile computing device 400 (e.g., an Internet Protocol(IP) address, a Media Access Control (MAC) address, a SubscriberIdentity Module (SIM) number, an International Mobile Equipment Identity(IMEI), etc.). The user ID 454 may include a string that identifies auser of the mobile computing device 400 (e.g., a username, an emailaddress, etc.). The request 450 may include contextual data 456. Thecontextual data 456 may indicate a context of the mobile computingdevice 400. The contextual data may include sensor values 406,application data parameters 426, and survey data parameters 430. Thesensor values 406 may include sensor measurements that the mobilecomputing device 400 receives from the sensor devices 20. The sensorvalues 406 can also include sensor measurements from sensors that are inthe mobile computing device 400 (e.g., GPS, accelerometer, microphone,ambient light sensor, etc.). The application data parameters 426 mayinclude data from other applications at the mobile computing device 400(e.g., a calendar application, a food-ordering application, anexercise-tracking application, a diet-tracking application, a socialnetworking application, a browser application, etc.). The survey dataparameters 430 may include user-specified responses to survey questions.In some implementations, the request 450 may include the data items 472.In such implementations, the request 450 can include an entire data item472. Alternatively, the request 450 may include information thatidentifies the data item 472 (e.g., a data item identifier (ID)).

The mobile computing device 400 can generate the request 450 in responseto receiving a user input. For example, the data item managingapplication may display a button 480. Upon detecting a user selection ofthe button 480, the mobile computing device 400 can generate the request450. Alternatively or additionally, the mobile computing device 400 cangenerate the request 450 periodically (e.g., every 30 minutes).Alternatively or additionally, the mobile computing device 400 cangenerate the request 450 when the mobile computing device 400 launchesthe data item managing application.

The server 200 receives the request 450. The server 200 determines adisplay order for the data items 472 based on the contextual data 456indicated in the request 450. Upon determining the display order, theserver 200 indicates the display order to the mobile computing device400. The server 200 may indicate the display order by sending an orderedlist 470 of data items 472 to the mobile computing device 400. In someimplementations, the ordered list 470 includes a score 474 for each dataitem 472. The server 200 generates the scores 474 for the data items 472based on the contextual data 456. The scores 474 indicate a displayorder for the data items 472. For example, the mobile computing device400 can utilize the scores 474 to re-arrange the display of the dataitems 472, so that data items 472 that have a higher score 474 aredisplayed towards the top of the list, and data items 472 that have alower score 474 are displayed towards the bottom of the list. The scores474 may include decimal numbers. Alternatively, the scores 474 mayinclude integer numbers. The scores 474 may be referred to as ranks(e.g., if the scores 474 include integer numbers).

Referring to the data items 472, the data items 472 may includedisplayable information. Displayable information refers to informationthat can be displayed at the mobile computing device 400. Thedisplayable information may include a text string, an image, a video,and/or a user-selectable link. If the data items 472 correspond withtasks, then the data items 472 may include a time duration thatindicates the amount of time that it may take to complete the task. Thedata item 472 may also include a category that is associated with thedata item 472.

Referring to the sensor devices 20, the neuro device 20-1 may refer to adevice that can monitor and/or stimulate the electrical activity of abrain. For example, the neuro device 20-1 may include a brain imagingdevice (e.g., FNIRS (functional near-infrared spectroscopy), EEG(electroencephalogram), etc.), and/or a brain stimulation device (e.g.,TDCS (transcranial direct current stimulation) device, etc.). The brainstimulation device may be referred to as a brain manipulation device.The neuro device 20-1 can determine a global oscillatory power of thebrain. The global oscillatory power may be measured in Hertz (Hz). Theglobal oscillatory power may indicate the type of rhythm that the brainis exhibiting. For example, the global oscillatory power may indicatewhether the brain of a user is exhibiting a theta rhythm (e.g., 2-8 Hz),an alpha rhythm (e.g., 8-13 Hz), or a beta rhythm (e.g., 13-30 Hz).Alternatively or additionally, the neuro device 20-1 may specify thetype of rhythm that the brain is exhibiting (e.g., theta rhythm, alpharhythm, beta rhythm, etc.).

The heart rate monitor 20-2 can measure a heart rate of the user andtransmit the measured heart rate to the mobile computing device 400. Theblood glucose monitor 20-3 can measure a blood glucose level of the userand transmit the measured blood glucose level to the mobile computingdevice 400. The blood glucose monitor 20-3 may be subcutaneous (e.g.,under the skin) or transcutaneous (e.g., over the skin). The insulinpump 20-4 can administer insulin to the user. The insulin pump 20-4 canmeasure the amount of insulin that is administered and transmit anindication of the amount to the mobile computing device 400. In someexamples, the insulin pump 20-4 may administer glycogen and transmit anindication of the amount of glycogen that is administered to the mobilecomputing device 400.

The wearable computing device 20-5 may refer to a portable electronicdevice that can be worn by a user. The wearable computing device 20-5may be worn around a wrist of the user. The wearable computing device20-5 may include an activity monitor that can measure various activitiesthat the user performs. For example, the activity monitor may measure anumber of steps that the user walks, a number of floors that the userascends, a number of hours that the user sleeps, a number of minutesthat the user spends being active, a number of calories that the userburns, etc. The wearable computing device 20-5 can employ varioussensors to measure the activities. For example, the wearable computingdevice 20-5 may utilize an accelerometer, a gyroscope, a compass, anambient light sensor, an optical heartbeat sensor, an altimeter, etc.

In some implementations, a sensor device 20 may be associated with anelectrical appliance such as an oven, a microwave, a refrigerator, etc.A sensor device 20 that is associated with an electrical appliance cansend information to the mobile computing device 400 regarding a state ofthe electrical appliance. For example, a sensor device 20 that isassociated with an oven can send an indication to the mobile computingdevice 400 that the oven temperature has reached a specific temperature.Sensor devices 20 that are associated with appliances may also receiveinstructions from the mobile computing device 400. For example, a sensordevice 20 that is associated with the oven can receive an instruction topre-heat the oven to a specified temperature.

In some implementations, a sensor device 20 may be associated with anautomobile. A sensor device 20 that is associated with an automobile cansend information to the mobile computing device 400 regarding a state ofthe automobile (e.g., tire pressure, gas level, location, etc.). Sensordevices 20 that are associated with an automobile may also receiveinstructions from the mobile computing device 400. For example, a sensordevice 20 that is associated with an automobile can receive aninstruction to cause the automobile to move from one position (e.g.,inside a car garage) to another position (e.g., outside the car garage).

In some implementations, a sensor device 20 may be associated with ahuman operator that is different from the user of the mobile computingdevice 400. For example, the user of the mobile computing device 400 maybe a healthcare provider (e.g., a nurse or a doctor), and the sensordevice 20 may be attached to a patient of the healthcare provider. Insome scenarios, the sensor device 20 may be attached to an infant, andthe user of the mobile computing device 400 may be a parent of theinfant. In some implementations, a sensor device 20 may be associatedwith an animal. For example, the sensor device 20 may be attached to adog, and the user of the mobile computing device 400 may be a dogtrainer.

The mobile computing device 400 may receive the sensor values 406 fromthe sensor devices 20 via short-range communications. For example, themobile computing device 400 may receive the sensor values 406 from thesensor devices 20 via Bluetooth, Bluetooth Low Energy, Near FieldCommunications (NFC), Wireless Fidelity (Wi-Fi), etc. In someimplementations, the mobile computing device 400 may transmitinformation to some of the sensor devices 20. For example, the mobilecomputing device 400 can instruct the neuro device 20-1 to stimulateelectrical activity in the brain in a particular manner.

FIG. 2A illustrates an example block diagram of the server 200. Ingeneral, the server 200 receives a request 450 to determine a displayorder for the data items 472. The display order refers to an order inwhich the data items 472 are displayed at the mobile computing device400. The request 450 includes contextual data 456 that indicates acontext of the mobile computing device 400. The server 200 utilizes thecontextual data 456 to determine a display order for the data items 472.Upon determining the display order for the data items 472, the server200 transmits an ordered list 470 that specifies the display order forthe data items 472. The ordered list 470 may include the data items 472.The ordered list 470 can specify the display order of the data items 472by including scores 474 for the data items 472. The mobile computingdevice 400 can utilize the scores 474 to re-arrange the display order ofthe data items 472, so that the data items 474 are displayed accordingto the display order determined by the server 200. For example, themobile computing device 400 can display the data item 472 with thehighest score 474 towards the top of the list, and the data item 472with the lowest score 474 towards the bottom of the list.

The server 200 may include a network communication device 205, a storagedevice 210, and a processing device 280. The server 200 may beimplemented by a cloud computing platform. The cloud computing platformmay include a collection of remote computing services. The cloudcomputing platform may include computing resources (e.g., the processingdevice 280). The computing resources may include physical servers thathave physical central processing units (pCPUs). The cloud computingresources may include storage resources (e.g., the storage device 210).The storage resources may include database servers that support NoSQL,MySQL, Oracle, SQL Server, or the like. The cloud computing platform mayinclude networking resources (e.g., the network communication device205). Example cloud computing platforms include Amazon Web Services®,Google Cloud Platform®, Microsoft AZURE™ and Alibaba Aliyun™.

The network communication device 205 communicates with a network (e.g.,the network shown in FIG. 1 ). The network communication device 205 mayinclude a communication interface that performs wired communication(e.g., via Ethernet, Universal Serial Bus (USB) or fiber-optic cables).The network communication device 205 may perform wireless communication(e.g., via Wi-Fi, Bluetooth, Bluetooth Low Energy (BLE), Near FieldCommunications (NFC), ZigBee, a cellular network, or satellites). Thenetwork communication device 205 may include a transceiver. Thetransceiver may operate in accordance with an Institute of Electricaland Electronics Engineers (IEEE) specification (e.g., IEEE 802.3 or IEEE802.11). The transceiver may operate in accordance with a 3rd GenerationPartnership Project (3GPP) specification (e.g., Code Division MultipleAccess (CDMA), Long Term Evolution (LTE) or LTE-Advanced). Thetransceiver may operate in accordance with a Universal Serial Bus (USB)specification (e.g., via a USB port).

The storage device 210 stores data. The storage device 210 may includeone or more computer readable storage mediums. For example, the storagedevice 210 may include solid state memory devices, hard disk memorydevices, optical disk drives, read-only memory and/or nanotube-basedstorage devices. The storage device 210 may be connected to theprocessing device 280 via a bus and/or a network. Different storagemediums within the storage device 210 may be located at the samephysical location (e.g., in the same data center, same rack, or samehousing). Different storage mediums of the storage device 210 may bedistributed (e.g., in different data centers, different racks, ordifferent housings). The storage device 210 may store a data item datastore 220, a user information data store 250, and a scoring data store260.

The data item data store 220 stores information regarding the data items472. The data item data store 220 may store data item records 222 thatcorrespond with the data items 472. A data item record 222 may include arecord ID 224. The record ID 224 may include a string that identifiesthe data item record 222. A data item record 222 may store displayableinformation 226. Displayable information 226 refers to information thatcan be displayed at the mobile computing device 400. The displayableinformation 226 may include a text string 228, an image 230, a video232, and/or a user-selectable link 234. The link 234 may include a webuniform resource locator (URL). Alternatively or additionally, the link234 may include a uniform resource identifier (URI) that identifies aparticular native application that may be installed at the mobilecomputing device 400. The displayable information 226 may includemetadata 236 such as a time duration 238 associated with the data item472, a popularity 240 of the data item 472, etc. In someimplementations, the data item records 222 may be referred to as taskrecords (e.g., when the data items 472 correspond with tasks).

A data item record 222 may also store a category 242 of thecorresponding data item 472. The category 242 may indicate a targetlevel of cognition for effectively interacting with the data item 472.For example, if the data item 472 is a task, then the category 242 mayindicate a level of cognition for effectively completing the task.Example categories 242 for the data items 472 include cognitivelydemanding, creative, mnemonic and rote. Data items 472 that are in thecognitively demanding category may involve a high degree of cognition.In other words, interacting with data items 472 that are in thecognitively demanding category may require the user of the mobilecomputing device 400 to acquire the information stored in the data item472, and understand the information through thought, experience and thesenses. Interacting with data items 472 in the creative category mayrequire a certain amount of creativity. In other words, viewing oracting upon creative data items may involve imagination or originalideas. Interacting with data items 472 in the mnemonic category mayinvolve remembering or memorizing information. Lastly, interacting withdata items 472 in the rote category may involve repetition of habitualtasks. Other categories 242 are also contemplated.

The server 200 may utilize the categories 242 to determine a displayorder for the data items 472. For example, data items 472 in aparticular category may be more relevant than data items 472 in othercategories based on the contextual data 456. Accordingly, the server 200can determine a display order in which the more relevant data items 472are displayed towards the top of the list, and the less relevant dataitems 472 are displayed towards the bottom of the list. Specifically,the server 200 can assign a higher score 474 to data items 472 that aremore relevant, and a lower score 474 to data items that are lessrelevant. As an example, the contextual data 456 may indicate that theuser has exercised. In this example, the user may be more effective atperforming tasks that are in the mnemonic category than tasks that arein the rote category. Accordingly, the server 200 can assign scores 474in such a manner that data items 472 in the mnemonic category receive ahigher score than data items 472 in the rote category. Similarly, if thecontextual data 456 indicates that the user recently had a high dosageof a stimulant (e.g., caffeine), then the user may be more effective atperforming cognitively demanding tasks than mnemonic tasks. In thisexample, the server 200 can assign scores 474 in such a manner that dataitems 472 in the cognitively demanding category receive a higher scorethan data items 472 in the mnemonic category.

The user information data store 250 stores user IDs 454 in associationwith record IDs 224 that identify specific data item records 222. Inother words, the user information data store 250 can indicate the dataitem records 222 that a particular user ID 454 may be associated with.Additionally or alternatively, the user information data store 250 maystore device IDs 452 and their associated record IDs 224. The userinformation data store 250 may include one or more look-up tables(LUTs), indices (e.g., inverted indices), or other data structure. Forexample, the user information data store 250 may include a look-up tablethat stores the user IDs 454 as keys, and the corresponding record IDs224 as values.

The scoring data store 260 may store a scoring model 264 that can beused to determine the scores 474 for the data items 472. The scoringmodel 264 may utilize one or more rules 266 to determine category scoresfor the categories 242. Each rule 266 can specify a condition. Thecondition may specify a particular sensor value 406, a particularapplication data parameter 426, and/or a particular survey dataparameter 430. If the condition specified by a rule 266 is satisfied(e.g., met), then the category scores for the categories 242 referencedby the rule 266 can be adjusted (e.g., increased or decreased). As anexample, a particular rule 266 can increase the category score for themnemonic category by one, and decrease the category score for the rotecategory by one, if the contextual data 456 indicates that the userexercised for 30 minutes. In this example, the contextual data 456 mayindicate that the user exercised for 30 minutes, if the average sensorvalue 406 for heart rate was above 120 beats per minute during the last30 minutes. See FIG. 2C for examples of the rules 266.

The scoring model 264 may include a machine-learned regression model.The scoring model 264 may be implemented as a set of supervised,semi-supervised, or unsupervised tasks. The scoring model 264 mayutilize training data. The training data may include information thathas been labeled by a human operator. The scoring model 264 may beimplemented a set of gradient-boosted decision trees.

The processing device 280 may include a collection of one or morecomputing processors that execute computer readable instructions. Thecomputing processors of the processing device 280 may operateindependently or in a distributed manner. The computing processors maybe connected via a bus and/or a network. The computing processors may belocated in the same physical device (e.g., same housing). The computingprocessors may be located in different physical devices (e.g., differenthousings, for example, in a distributed computing system). A computingprocessor may include physical central processing units (pCPUs). A pCPUmay execute computer-readable instructions to implement virtual centralprocessing units (vCPUs). The processing device 280 may executecomputer-readable instructions that correspond with a data itemdeterminer 282, a data item scorer 284, and an ordered list generator290.

The data item determiner 282 receives the request 450, and determinesthe data items 472 associated with the request 450. In someimplementations, the request 450 may include the data items 472. In suchimplementations, the data item determiner 282 may determine the dataitems 472 by retrieving the data items 472 from the request 450. In someimplementations, the request 450 may include the record IDs 224. In suchimplementations, the data item determiner 282 may determine the dataitems 472 by retrieving the record IDs 224 from the request 450. In someimplementations, the request 450 may include a device ID 452 and/or auser ID 454. In such implementations, the data item determiner 282 canquery the user information data store 250 with the device ID 452 and/orthe user ID 454 specified in the request 450. In response to such aquery, the data item determiner 282 can receive the record IDs 224 thatare associated with the device ID 452 and/or the user ID 454 specifiedin the request 450.

The data item scorer 284 determines scores 474 for the data items 472that are associated with the request 450. The data item scorer 284 canutilize the scoring model 264 to determine the scores 474 for the dataitems 472. In some implementations, the data item scorer 284 may computea feature vector for each data item 472. The feature vector may includeone or more feature values. The feature values can be binary or decimal.Upon computing the feature vectors, the data item scorer 284 can inputthe feature vectors into the scoring model 264 to generate the scores474 for the data items 472. The feature values in the feature vectorscan include the sensor values 406, the application data parameters 426,and/or the survey data parameters 430. For example, the feature valuesmay include a heart rate measurement, a blood glucose measurement, aglobal oscillatory power measurement, etc. The feature values may alsoinclude information from the data item records 222. For example, thefeature values may include the duration 238, the popularity 240, alength of the text string 228, a size of the video 232, etc. A featurevalue may include the category 242 of the data item 472.

The data item scorer 284 may determine the scores 474 for the data items472 based on a chronotype of the user of the mobile computing device400. The chronotype of the user may refer to the behavioralmanifestation of underlying circadian rhythms of myriad physicalprocesses. The chronotype of the user may refer to the propensity forthe user to perform a particular activity at a certain time during theday. For example, the chronotype of a user may indicate the propensityfor sleeping late (e.g., after 2 am). The data item scorer 284 maydetermine the chronotype of the user and include the chronotype as afeature value in the feature vectors. The data item scorer 284 maydetermine the chronotype based on the contextual data 456. For example,the user may specify the chronotype as a survey data parameter 430.Advantageously, by utilizing the chronotype to generate the scores 474,the data item scorer 284 can optimize the sequence of the data items 472for the user. In other words, the data item scorer 284 allows the userto interact with a particular data item 472 when the user has thehighest propensity for interacting with that particular data item 472.

In some implementations, the score 474 for a data item 472 may be thescore for a category 242 of the data item 472. In other words, the dataitem scorer 284 may determine the score 474 for a data item 472 bydetermining a category 242 of the data item 472, and determining a scorefor the category 242. The data item scorer 284 may include a categorydeterminer 286, and a category scorer 288. The category determiner 286determines the category 242 of the data item 472, and the categoryscorer 288 determines a score for the category 242.

The category determiner 286 determines the categories 242 of the dataitems 472 that are associated with the request 450. In someimplementations, the category determiner 286 can determine thecategories 242 by retrieving the categories 242 from the data item datastore 220. For example, the category determiner 286 can query the dataitem data store 220 with the record IDs 224 identified by the data itemdeterminer 282. In response to such a query, the category determiner 286can receive the categories 242 of the data items 472 associated with therequest 450. In some implementations, the data item data store 220 maynot include the category 242 for a data item 472. For example, the userof the mobile computing device 400 may have generated a data item 472that does not have a corresponding data item record 222 in the data itemdata store 220. In such implementations, the category determiner 286 mayutilize a text categorizer to determine a category of the data item 472.For example, the category determiner 286 can retrieve a text string fromthe data item 472, provide the text string to the text categorizer as aninput, and receive the category of the data item 472 as an output.

The text categorizer may utilize techniques associated with superviseddata classification, unsupervised data classification, and/orsemi-supervised data classification to classify a data item 472 into acategory 242. For example, the text categorizer may include a Bayesclassifier (e.g., a naive Bayes classifier), a set-based classifier(e.g., a rough set-based classifier, or a soft set-based classifier),etc. The text categorizer can also utilize techniques associated withthe k-nearest neighbors algorithm, the expectation-maximizationalgorithm, or variants thereof.

The category scorer 288 scores the categories 242 that are associatedwith the request 450. The category scorer 288 can retrieve the scoringmodel 264 from the scoring data store 260, and utilize the scoring model264 to generate the category scores. Utilizing the scoring model 264 mayinclude utilizing the rules 266. Specifically, the category scorer 288can identify the rules 266 that are satisfied based on the contextualdata 456 specified in the request 450. For each rule 266 that issatisfied, the category scorer 288 can adjust the category scores in amanner specified by the rule 266. See FIG. 2C for a set of example rules466, and their effect on example category scores.

The data item scorer 284 can determine the scores 474 for the data items472 based on the category scores determined by the category scorer 288.In some implementations, the data item scorer 284 can set the score 474for a data item 472 to be equal to the category score for the category242 of the data item 472. Upon determining the scores 474 for the dataitems 472, the server 200 can generate the ordered list 470 of the dataitems 472.

The ordered list generator 290 generates the ordered list 470 of thedata items 472, and transmits the ordered list 470 to the mobilecomputing device 400 via the network communication device 205. Theordered list 470 may include the data items 472, and the score 474 foreach data item 472. The ordered list generator 290 can generate theordered list 470 by instantiating a data container, and writing the dataitems 472 and their scores 474 to the data container. The data containermay be a JSON object, an XML file, etc. If the request 450 includesinformation that identified the data items 472, then the ordered listgenerator 290 can include the same information along with respectivescores 474 for the data items 472. For example, if the request 450included data item IDs that identified the data items 472, then theordered list 470 can include the same data item IDs and respectivescores 474 for the data item IDs. If the request 450 does not includeinformation regarding the data items 472, then the ordered listgenerator 290 can include information regarding the data items 472 inthe ordered list 470. For example, the ordered list generator 290 canreceive the record IDs 224 from the data item determiner 282. For eachrecord ID 224 that the data item determiner 282 identifies, the orderedlist generator 290 can retrieve the displayable information 226 from thedata item data store 220, and include the displayable information 226 inthe ordered list 470.

The scores 474 for the data items 472 can indicate a display order forthe data items 472. For example, data items 472 with higher scores 474rank higher in the display order, while data items 472 with lower scores474 rank lower in the display order. As described herein, in someimplementations, the scores 474 for the data items 472 may be the sameas the category scores for the categories 242 of the data items 472. Insuch implementations, data items 472 that belong to the same category242 may have the same score 474. The ordered list generator 290 candetermine a suborder for data items 472 in the same category 242 basedon the contextual data 456 and/or the displayable information 226. Forexample, the ordered list generator 290 may sort data items 472 thathave the same scores 474 based on the time duration 238, the popularity240, and/or a size (e.g., length of the text string 228) of the dataitems 472.

In some examples, one of the application data parameters 426 may includea start time of the next calendar event scheduled in a calendarapplication that is installed on the mobile computing device 400. Insuch examples, the ordered list generator 290 can calculate a timedifference between a current time and the start time of the nextcalendar event. The time difference may be referred to as the availabletime. The ordered list generator 290 can order data items 472 that havethe same scores 474 based on a comparison of their time durations 238and the available time. Specifically, the ordered list generator 290 canorder the data items 472 such that data items 472 that have a timeduration 238 that is less than the available time are ranked higher thandata items 472 with a time duration 238 that is greater than theavailable time. Advantageously, tasks that a user of the mobilecomputing device 400 can complete in the available time are rankedhigher than tasks that the user may not be able to complete in theavailable time.

FIG. 2B is an example block diagram of the rules 266 that the server 200may utilize to determine category scores 244 for the categories 242 ofthe data items 472. A rule 266 can specify one or more conditions thatreference one or more sensor values 406, one or more application dataparameters 426, and/or one or more survey data parameter 430. Inaddition to specifying conditions, a rule 266 can also specify theeffect that the condition(s) can have on one or more category scores 244for one or more categories 242. In other words, if the conditions (e.g.,all the conditions) specified by a rule 266 are satisfied, then theserver 200 can adjust the category scores 244 that are affected by therule 266 in the manner prescribed by the rule 266.

FIG. 2C illustrates example rules 266-1 . . . 266-10 and their effect onexample category scores 244-1 . . . 244-4. In the example of FIG. 2C,the category scores 244-1, 244-2, 244-3 and 244-4 are for thecognitively demanding category, creative category, mnemonic category,and rote category, respectively. The first three rules 266-1, 266-2, and266-3 include conditions that specify specific values for globaloscillatory power. Global oscillatory power refers to a measure ofelectrical activity in the brain. Global oscillatory power may bemeasured by the neuro device 20-1 shown in FIG. 1 . Referring to thefirst rule 266-1, if the request 450 indicates that the globaloscillatory power is between 2-8 Hz, then the server 200 can increasethe first category score 244-1 and the third category score 244-1 byone. Referring to the second rule 266-2, if the request 450 indicatesthat the global oscillatory power is between 8-13 Hz, then the server200 can decrease the first category score 244-1 and the third categoryscore 244-3 by one, and increase the second category score 244-2 by one.Referring to the third rule 266-3, if the request 450 indicates that theglobal oscillatory power is between 13-30 Hz, then the server 200 canincrease the first category score 244-1 and the fourth category score244-4 by one, and decrease the second category score 244-2 by one.

In some implementations, the conditions specified by the first threerules 266-1, 266-2, and 266-3 may include type of rhythms. The request450 may indicate a type of rhythm that the brain of the user iscurrently exhibiting. In the example of FIG. 2C, the server 200 canutilize the first three rules 266-1 . . . 266-3, if the request 450indicates the type of rhythm. For example, if the request 450 indicatesa theta rhythm, then the server 200 adjusts the category scores 244-1 .. . 244-4 in accordance with the first rule 266-1. The first rule 266-1boosts the category scores 244-1, 244-3 for the cognitively demandingcategory and the mnemonic category, respectively, because the user maybe more effective at completing tasks in these categories when theuser's brain exhibits a theta rhythm. If the request 450 indicates analpha rhythm, then the server 200 can adjust the category scores 244-1 .. . 244-4 according to the second rule 266-1. The second rule 266-2decreases the category scores 244-1, 244-3 for the cognitively demandingcategory and the mnemonic category, respectively, because the user maybe less effective at completing tasks in these categories when theuser's brain exhibits an alpha rhythm. Similarly, if the request 450indicates a beta rhythm, then the server 200 can adjust the categoryscores 244-1 . . . 244-4 in accordance with the third rule 266-3. Thethird rule 266-3 boosts the category scores 244-1, 244-4 for thecognitively demanding category and the rote category, respectively,because the user may be more effective at completing tasks in thesecategories when the user's brain exhibits a beta rhythm.

Referring to the fourth rule 266-4, if the server 400 determines thatthe user of the mobile computing device 400 has exercised for 30minutes, then the server 400 can increase the third category score 244-3by one, and decrease the fourth category score 244-4 by one. The server400 may determine that the user of the mobile computing device 400 hasexercised for 30 minutes, if the request 450 indicates that the averageheart rate was greater than 120 beats per minute for the last 30minutes. The heart rate may have been measured by the heart rate monitor20-2, and/or the wearable computing device 20-5 shown in FIG. 1 . Thefourth rule 266-4 boosts the category score 244-3 for the mnemoniccategory because the user may be more effective at completing tasks inthis category after exercising.

In the example of FIG. 2C, the fifth rule 266-5 to the eight rule 266-8include conditions that reference a local time at the mobile computingdevice 400, and the age of the user of the mobile computing device 400.The request 450 may include the age of the user as a survey dataparameter 430. The request 450 may include the local time at the mobilecomputing device 400 as a sensor value 406. Alternatively, the request450 may include a time zone of the mobile computing device 400, and theserver 200 may determine the local time at the mobile computing device400 by retrieving the current time in the specified time zone from aninternet time server.

Referring to the fifth rule 266-5, if the server 200 determines that thelocal time at the mobile computing device 400 is between 5 am and 11 am,and the age of the user is greater than 40, then the server 200 canincrease the first category score 244-1 and the third category score244-3 by one, and decrease the fourth category score 244-4. Users thatare older than 40 may be more effective at performing cognitivelydemanding tasks and mnemonic tasks in the morning. Hence, increasing thecategory scores 244 for the cognitively demanding category 242 and themnemonic category 242 causes tasks in these categories to be rankedhigher in the display order.

Referring to the sixth rule 266-6, if the server 200 determines that thelocal time at the mobile computing device 400 is between 7 pm-11 pm, andthe age of the user is greater than 40, then the server 200 can increasethe second category score 244-2 and the fourth category score 244-4 byone, and decrease the first category score 244-1 by one. Users that areolder than 40 may be more effective at performing creative tasks androte tasks in the evening, and less effective at performing cognitivelydemanding tasks in the evening. Hence, decreasing the category score 244for the cognitively demanding category 242 causes tasks in thecognitively demanding category to be ranked lower in the display order.

Referring to the seventh rule 266-7, if the server 200 determines thatthe local time at the mobile computing device 400 is between 5 am and 11am, and the age of the user is less than 40, then the server 200 canincrease the second category score 244-2, and decrease the firstcategory score 244-1 and the third category score 244-3. Users that areyounger than 40 may be less effective at performing cognitivelydemanding tasks and mnemonic tasks in the morning. Hence, decreasing thecategory scores 244 for the cognitively demanding category 242 and themnemonic category 242 causes tasks in these categories to be rankedlower in the display order.

Referring to the eighth rule 266-8, if the server 200 determines thatthe local time at the mobile computing device 400 is between 11 pm and 3am, and the age of the user is less than 40, then the server 200 canincrease the first category score 244-1 and the third category score244-3. Users that are younger than 40 may be more effective atperforming cognitively demanding tasks and mnemonic tasks late at night.Hence, increasing the first category score 244-1 for the cognitivelydemanding category 242, and the third category score 244-3 for themnemonic category 242 causes tasks in these categories to be rankedhigher in the display order.

In the example of FIG. 2C, the ninth rule 266-9 and the tenth rule266-10 include conditions that reference an application data parameter426. The request 450 may specify the start time of the next calendarevent stored in a calendar application that is installed at the mobilecomputing device 400. The server 200 can compute an available time bycalculating a difference between a current time and the start time ofthe next calendar event. If the available time is less than a thresholdamount of time (e.g., 10 minutes), then the ninth rule 266-9 istriggered. When the ninth rule 226-9 is triggered, the server 200decreases the first category score 244-1 and the second category score244-2, and increases the fourth category score 244-4. Advantageously,when the available time is limited, then the time-intensive cognitivelydemanding tasks and creative tasks are ranked lower in the displayorder, whereas quick rote tasks are ranked higher. If the available timeis greater than the threshold amount of time, then the tenth rule 266-10is triggered. When the tenth rule 226-10 is triggered, the server 200can increase the first category score 244-1, the second category score244-2, and the third category score 244-3. Advantageously, when theavailable time is plentiful, then the time-intensive cognitivelydemanding, creative and mnemonic tasks can be ranked higher.

FIG. 3A illustrates an example method 300 for determining a displayorder for data items. The method 300 may be executed by a server (e.g.,the server 200 shown in FIG. 2A). The method 300 may be implemented as aset of computer-readable instructions that are executed by a processingdevice (e.g., the processing device 280 shown in FIG. 2A). Generally,the server receives a request to determine a display order for a set ofdata items (at 310). The server determines the data items that areassociated with the request (at 320). The server determines scores forthe data items. The server may determine the scores for a data item bydetermining the category of the data item (at 330), and scoring thecategory of the data item (at 340). The server generates an ordered listthat specifies the display order for the data items (at 370). Theordered list includes the scores for the data items, and the scoresindicate the display order of the data items. The server transmits theordered list at 390.

Referring to 310, the server receives a request to determine a displayorder for a set of data items. Receiving the request may includereceiving a data container that includes information regarding therequest (at 312). The data container may include a JavaScript ObjectNotation (JSON) object, an Extensible Markup Language (XML) file, etc.Receiving the request may include receiving a device ID and/or a user ID(at 314). The device ID may include a string that identifies a mobilecomputing device that generated the request (e.g., an IP address, a MACaddress, a SIM number, an IMEI, etc.). The user ID 454 may include astring that identifies a user of the mobile computing device 400 (e.g.,a username, an email address, etc.).

Receiving the request may include receiving contextual data (at 316).The contextual data may indicate a context of the mobile computingdevice. The contextual data may include sensor values, application dataparameters, and/or survey data parameters. The sensor values may havebeen recorded by sensor devices (e.g., the sensor devices 20 shown inFIG. 1 ). The application data parameters may include data from variousapplications at the mobile computing device (e.g., a calendarapplication, a food-ordering application, an exercise-trackingapplication, etc.). The survey data parameters may includeuser-specified responses to survey questions. In some implementations,the request may include the data items. In such implementations, therequest can include an entire data item. Alternatively, the request mayinclude information that identifies the data item (e.g., a data itemID).

At 320, the server determines the data items that are associated withthe request. In some implementations, the request may include the dataitems. In such implementations, the server can determine the data itemsby retrieving the data items from the request (at 322). In someimplementations, the request may specify the user ID and/or the deviceID. In such implementations, the server can determine the data itemsthat are associated with the request based on the user ID and/or thedevice ID specified in the request (at 324).

Referring to 324, the server can retrieve the user ID and/or the deviceID from the request (at 324-1). The server may store a data item datastore (e.g., the data item data store 220 shown in FIG. 2A) that storesdata item records (e.g., the data item records 222 shown in FIG. 2A).Each data item record may correspond with a data item. Each data itemrecord may include a record ID (e.g., record ID 224 shown in FIG. 2A)that identifies the data item record. The server may also store a userinformation data store (e.g., the user information data store 250 shownin FIG. 2A) that stores user IDs and/or device IDs, and theircorresponding record IDs. In other words, the user information datastore can identify the data items that may be associated with a user IDand/or a device ID.

At 324-2, the server can query the user information data store with theuser ID and/or the device ID specified in the request. Querying the userinformation data store may include utilizing a look-up table that storesthe user IDs and/or the device IDs, and their corresponding record IDs.In response to such a query, the server can receive the record IDs forthe data item records that are associated with the user ID and/or thedevice ID (at 324-3).

At 330, the server determines the categories of the data items that areassociated with the request. In some implementations, the server candetermine the category of a data item by retrieving the category fromthe data item data store (at 332). In some implementations, the servercan determine the category of a data item by utilizing a textcategorizer (at 334). Referring to 332, the server can query the dataitem data store with the record IDs of the data item records that areassociated with the request (at 332-1). Querying the data item datastore may include querying an inverted index that maps the record IDs tothe categories that are stored in the corresponding data item records.In response to querying the data item data store with the record IDs,the server can receive the categories that are associated with the dataitem records that correspond with the record IDs (at 332-2).

Referring to 334, the server can identify a text string that isassociated with the data item (334-1). For example, the request mayinclude a data item that a user of a mobile computing devise may havegenerated at the mobile computing device. In this example, the requestmay include a text string, an image, a video, and/or a link that isassociated with the data item. In this example, the server can retrievethe text string from the request. At 334-2, the server can utilize atext categorizer to categorize the text string. In other words, theserver can utilize the text categorizer to determine the categories ofthe data items that are associated with the request. The textcategorizer can categorize the text string by utilizing techniques thatare associated with supervised data classification, unsupervised dataclassification, and/or semi-supervised data classification. For example,the text categorizer may include a Bayes classifier (e.g., a naive Bayesclassifier), a set-based classifier (e.g., a rough set-based classifier,or a soft set-based classifier), etc. The text categorizer can alsoutilize techniques associated with the k-nearest neighbors algorithm,the expectation-maximization algorithm, or variants thereof.Advantageously, the server can determine a category for a data item evenif a data item record does not exist for the data item. In other words,the server may determine a category for a data item that is generated bya user of the mobile computing device.

At 340, the server scores the categories of the data items. The scoresfor the categories may be referred to as category scores. In general,the server may utilize a scoring model to determine the category scores.The server can provide the contextual data parameters that are specifiedin the request as input to the scoring model (at 342). Upon providingthe contextual data parameters to the scoring model, the server mayreceive the category scores as output from the scoring model (at 344).In some implementations, the scoring model may determine category scoresfor the cognitively demanding category, the creative category, themnemonic category, and the rote category. The scoring model may utilizevarious rules to determine the category scores. Each rule may includeone or more conditions that reference one or more sensor values, one ormore application data parameters, and/or one or more survey dataparameters. See FIG. 3B for an example method that the server mayexecute to determine the category scores.

As described herein, in some implementations, the server may equate thescore for a data item to the category score for the category of the dataitem. In such implementations, there may be scenarios in which multipledata items may have the same score because the data items belong to thesame category. In such scenarios, the server can order the data itemswithin the category. The server can order than data items based on aproperty of the data items, and/or based on the contextual data. Forexample, the server can order the data items based on a time durationassociated with the data items (at 372). Alternatively or additionally,the server can order the data items based on a size of the data items(e.g., a length of a text string in the data items) (at 374).Alternatively or additionally, the server can order the data items basedon a start time of the next calendar event stored in a calendarapplication that is installed on the mobile computing device (at 376).

Referring to 372, the server can order data items within a categorybased on the time duration associated with the data items. The servercan retrieve the time durations associated with the data items fromtheir corresponding data item records (at 372-1). The server can orderthe data items based on the time durations (at 372-2). For example, theserver can order the data items such the data items with a relativelyshorter time duration rank higher in the display order than data itemswith a relatively longer time duration.

Referring to 374, the server can order data items within a categorybased on a size of the data items. Specifically, the server can orderdata items with a category based on the length of a text string in thedata item. At 374-1, the server can retrieve the text strings from thedata item records that correspond with the data items. At 374-2, theserver can compute the length of each string. At 374-3, the server canorder the data items based on the length of their text strings. Forexample, the server can order the data items such that data items withrelatively short text strings rank higher in the display order than dataitems with relatively long text strings.

Referring to 376, the server can order data items within a categorybased on the start time of the next calendar event stored in a calendarapplication that is installed at the mobile computing device. The servermay receive the start time of the next calendar event as an applicationdata parameter in the request (at 376-1). At 376-2, the server cancompute a time difference between a current time and the start time ofthe next calendar event. This time difference may be referred to as theavailable time. At 376-3, the server can prioritize data items that havea time duration that is less than the available time. In other words,the server can order the data items such that the data items with a timeduration shorter than the available time are ranked higher in thedisplay order, and the data items with a time duration longer than theavailable time are ranked lower in the display order. Advantageously,tasks that can be completed during the available time can appear towardsthe top of the list, whereas tasks that the user may not be able tocomplete within the available time can appear towards the bottom of thelist.

At 380, the server generates an ordered list of data items. The orderedlist can specify the display order of the data items. The server caninstantiate a data container (at 372). The data container may be a JSONobject, an XML file, etc. At 374, the server can retrieve informationregarding the data items from the data item data store. For example, theserver can retrieve the text strings, the images, the videos, and/or thelinks from the data item records that correspond with the data items. At376, the server writes the information regarding the data items to thedata container. At 378, the server writes the score for each data itemto the data container. Writing the score for a data item may refer towriting the category score for the category of the data item. In someimplementations, the ordered list may include the data item IDs insteadof the entire data items.

At 390, the server transmits the ordered list. The server can transmitthe ordered list directly to the mobile computing device that generatedthe request. Alternatively, the server can transmit the ordered list toan intermediary device (e.g., a proxy server), and the intermediarydevice can forward the ordered list to the mobile computing device thatgenerated the request.

In some implementations, the server can score the data items withoutcategorizing the data items. For example, instead of categorizing thedata items at 330 and scoring the categories at 340, the server candirectly score the data items. The server may utilize a machine-learnedscoring model to score the data items. In such implementations, theserver may compute a feature vector for each data item. Upon computingthe feature vectors, the server can feed the feature vectors to thescoring model as input, and the scoring model can generate the scoresbased on the feature vectors.

FIG. 3B illustrates example operations 340 that the server can executeto determine the category scores for categories of data items that areassociated with the request. As described herein, the server may storevarious rules that the server can utilize to determine the categoryscores. In general, the server can identify the rules that areapplicable based on the contextual data parameters specified in therequest (at 350). Upon identifying the applicable rules, the server canapply the rules to generate the category scores (at 360, 365).

Referring to 350, the server can identify rules that utilize thecontextual data parameters specified in the request. As describedherein, the server may store a scoring data store that stores the rules.Each rule may specify one or more conditions that reference one or morecontextual data parameters. The scoring data store may include aninverted index that maps the contextual data parameters to the rulesthat depend on the contextual data parameters. The server can query thescoring data store with the contextual data parameters specified in therequest (at 350-1). Querying the scoring data store may include queryingthe inverted index that maps the contextual data parameters to rulesthat utilize the contextual data parameters. In response to querying thescoring data store, the server can receive an indication of the rulesthat are associated with the contextual data parameters specified in therequest (at 350-2). For example, the server may receive rule IDs thatidentify the rules that utilize the contextual data parameters that arespecified in the request.

At 355, the server can set the category scores to zero. Setting thecategory scores to zero may include declaring (e.g., instantiating)variables for the category scores, and assigning the variables a valueof zero. For each rule that may be affected by the contextual dataparameters, the server can determine whether the contextual dataparameters satisfy the rule (at 360). If the contextual data parameterssatisfy the rule, then the server can adjust the category scores inaccordance with the rule (at 365).

Referring to 360, the server can identify a condition (e.g., all theconditions) that the rule specifies (at 360-1). The server can comparethe condition(s) with the values of the contextual data parametersspecified in the request to determine whether the condition(s) is (are)satisfied (at 360-2). For example, if the condition specifies that theheart rate be greater than 120 beats per minute, then the server candetermine whether the heart rate specified in the contextual data isgreater than 120 beats per minute. If all the conditions specified bythe rule are satisfied, then the rule is triggered, and the server canadjust the category scores in accordance with the rule (at 365).

Referring to 365, the server can adjust the category scores inaccordance with a rule, if the conditions specified by the rule aresatisfied. At 365-1, the server can identify the category scoresaffected by the rule. The server can also determine the manner in whichthe rule affects the category scores. For example, the server candetermine whether the rule specifies an amount by which the categoryscores are to be increased or decreased. At 365-2, the server increasesor decreases the category scores by the amount specified in the rules.The server can execute the operations indicated by 360 and 365 for eachrule that utilizes the contextual data parameters specified in therequest.

FIG. 4 is an example block diagram of the mobile computing device 400.The mobile computing device 400 may include a touchscreen display 402,one or more sensors 404, a computing processor 410, and a memory 440.The touchscreen display 402 may include a capacitive touchscreen, aresistive touchscreen, or the like. The one or more sensors 404 mayinclude an accelerometer, a gyroscope, a magnetometer, a proximitysensor, a light sensor, a barometer, a thermometer, an air humiditysensor, a pedometer, a heart rate monitor, a fingerprint sensor, amicrophone, and/or a camera.

The memory 440 may include one or more computer readable storagemediums. For example, the memory 440 may include solid state memorydevices, hard disk memory devices, optical disk drives, read-only memoryand/or nanotube-based storage devices. The memory 440 may be connectedto the computing processor 410 via a bus (e.g., a data bus, an addressbus, etc.) or one or more control lines. The memory 440 can store one ormore native applications 424. A native application 424 may refer to asoftware program product that can be downloaded, installed, and executedby the computing processor 410. Examples of native applications 424 mayinclude a data item managing application 424-1, a browser application, asocial networking application, a food-ordering application, asleep-tracking application, an exercise-tracking application, etc. Thememory 440 may store a contextual data store 442 that can store thecontextual data 456.

The computing processor 410 may include a display driver 412, a sensorhub 414, a short-range communications interface 416, one or more on-diesensors 418, a transceiver 420, and one or more central processing units(CPUs) 422. Referring to the one or more on-die sensors 418, the one ormore on-die sensors 418 may include a location sensor that determines alocation of the mobile computing device 400. The location sensor may useGlobal Positioning System (GPS) and/or Global Navigation SatelliteSystem (GLONASS). In some implementations, the one or more sensors 404may be integrated into the one or more on-die sensors 418. Hence, theone or more on-die sensors 418 may include an accelerometer, amagnetometer, a gyroscope, a thermometer, a fingerprint reader, etc.

The sensor hub 414 manages the sensor(s) 404, and the on-die sensor(s)418. The sensor hub 414 receives sensor values 406 from the sensor(s)404, and the on-die sensor(s) 418. The sensor values 406 refers tosensor measurements recorded by the sensor(s) 404, and the on-diesensor(s) 418. The sensor hub 414 can receive the sensor values 406periodically, and/or in response to a request. The sensor hub 414 maystore the sensor values 406 in the contextual data store 442. Thecomputing processor 410 may retrieve the stored sensor values 406 fromthe contextual data store 442, and utilize the retrieved sensor values406 at a later time. For example, the computing processor 410 mayinclude the sensor values 406 in the request 450. The sensor hub 414 canalso receive, via the short-range communications interface 416, sensorvalues 406 that are recorded by the sensor devices 20.

The display driver 412 drives the touchscreen display 402. In otherwords, the display driver 412 causes the touchscreen display 402 todisplay information. The display driver 412 may receive user input(e.g., user selections) from the touchscreen display 402. The displaydriver 412 may be referred to as display circuitry. The display driver412 may include a Light Emitting Diode (LED) driver that can drive a LEDdisplay. The display driver 412 may drive a stereoscopic display (e.g.,an autostereoscopic 3D display).

The short-range communications interface 416 enables the mobilecomputing device 400 to receive and/or transmit information viashort-range communications. Short-range communications refers towireless communication between electronic devices that are a relativelyshort distance apart (e.g., from several inches to tens of feet). Theshort-range communications interface 416 may include a transceiver thatsupports Bluetooth, Bluetooth Low Energy, Wireless Fidelity (Wi-Fi),Near Field Communications (NFC), and/or ZigBee. The short-rangecommunications interface 416 allows the mobile computing device 400 toreceive sensor values 406 from the sensor devices 20.

The transceiver 420 enables electronic communication with other devicesand network entities (e.g., the server 200). The transceiver 420 mayinclude a cellular transceiver, for example, a Long Term Evolution (LTE)transceiver, a LTE-Advanced transceiver, or a 5G (5^(th) generationmobile network) transceiver. The transceiver 420 may include a Wi-Fitransceiver. In some implementations, the short-range communicationsinterface 416 may be integrated into the transceiver 420. Hence, thetransceiver 420 may include a ZigBee transceiver, a Bluetoothtransceiver (e.g., Bluetooth Low Energy transceiver), a Near FieldCommunications (NFC) transceiver, etc. In some implementations, thetransceiver 420 may include a wired transceiver that communicates via awired interface (e.g., an Ethernet cable, a USB cable, or the like).

The CPU(s) 422 are capable of executing computer-readable instructions.For example, the CPU(s) can execute computer-readable instructions thatcorrespond with the native applications 424. The CPU(s) 422 may be basedon the reduced instruction set computing (RISC) architecture (e.g., anARM processor). Alternatively, the CPU(s) 422 may be based on thecomplex instruction set computing (CISC) architecture (e.g., an x86processor). The CPU(s) 422 can be based on other architectural models(e.g., quantum computing). The CPU(s) 422 may include a single CPU ormultiple CPUs (e.g., dual-core, quad-core or octa-core). The CPU(s) 422may include general-purpose CPU(s) or special-purpose CPU(s), forexample, Application Specific Integrated Circuit(s) (ASIC(s)), vectorprocessors, etc. In the example of FIG. 4 , the CPU(s) 422 is (are)executing computer-readable instructions that correspond with a dataitem managing application 424-1, and a contextual data logger 436.

The contextual data logger 436 logs (e.g., captures) the contextual data456. The contextual data logger 436 can store the contextual data 456 inthe contextual data store 442. Logging the contextual data 456 mayinclude receiving the sensor values 406 from the sensor devices 20, theone or more sensors 404, and/or the one or more on-die sensors 418. Thecontextual data logger 436 can receive the sensor values 406 recorded bythe sensor(s) 404, and the on-die sensor(s) 418 from the sensor hub 414.The contextual data logger 436 may receive the sensor values 406recorded by the sensor devices 20 from the sensor hub 414, or from theshort-range communications interface 416.

The contextual data logger 436 can log (e.g., capture) the applicationdata parameters 426. The application data parameters 426 may refer toinformation that is stored and/or displayed by the native applications424. For example, the application data parameters 426 may include thestart time and the end time of calendar events that are stored in acalendar application. The application data parameters 426 may includeinformation regarding physical activity that is monitored and/or loggedby a fitness-tracking application. The application data parameters 426may include information regarding meals that user may have had.Information regarding the meals may be from a food-ordering applicationand/or a diet-tracking application. The application data parameters 426may include information regarding when the user of the mobile computingdevice 400 uses a social networking application, or a browserapplication. The contextual data logger 436 may receive (e.g.,periodically receive) the application data parameters 426 as a pushmessage. Alternatively or additionally, the contextual data logger 436can utilize one or more application programming interfaces (APIs) toretrieve the application data parameter(s) 426.

The contextual data logger 436 can log (e.g., capture) survey dataparameters 430. The mobile computing device 400 can display one or moresurveys for the user of the mobile computing device 400 to complete.Each survey may include one or more questions (See FIG. 5 for examplesurveys). The survey data parameters 430 may refer to user-specifiedresponses to the questions in the surveys. The survey data parameters430 may include subjective information from a user that the sensorvalues 406 and the application data parameters 426 may not include. Forexample, a survey question can prompt the user to specify the user'sability to focus on a scale from 1 to 5. In this example, the user'sability to focus may not be easily measurable via the sensor devices 20,the sensor(s) 404, or the on-die sensor(s) 418.

The contextual data logger 436 may be a part of the data item managingapplication 424-1. Alternatively, the contextual data logger 436 may bea standalone native application 424. The contextual data logger 436 mayoperate in the application layer. The contextual data logger may operatein lower layers (e.g., presentation, session, transport, network, datalink, and/or physical). The contextual data logger 436 may be integratedinto an operating system of the mobile computing device 400. Thecontextual data logger 436 may operate as a service that the data itemmanaging application 424-1 can subscribe to in order to receive thecontextual data 456.

The data item managing application 424-1 manages the data items 472.Managing the data items 472 may refer to receiving the data items 472,storing the data items 472, and/or displaying the data items. Asdescribed herein, the data items 472 may be referred to as tasks, andthe data item managing application 424-1 may be referred to as a taskmanagement application, a to-do list application, and/or a remindersapplication. The data items 472 may be referred to as knowledge modulesor learning modules, and the data item managing application 424-1 may bereferred to as a knowledge management application, learning managementapplication, and/or a learning management system. In someimplementations, the data item managing application 424-1 may be a partof another native application 424. For example, the data item managingapplication 424-1 may be a part of a native application 424 that canmanage e-mails, calendar events, contact information, and task items.

The data item managing application 424-1 may include a surveyor 428, adata item determiner 432, and a renderer 434. The surveyor 428 cangenerate surveys, and present the surveys to the user of the mobilecomputing device 400. A survey can include one or more questions. Theuser of the mobile computing device 400 can specify responses to thequestions in the surveys. The user-specified responses to the questionsin the surveys may be referred to as survey data parameters 430. Asurvey can include a single question, or multiple questions. Thesurveyor 428 can present surveys periodically (e.g., once a day, once aweek, etc.). Alternatively, the surveyor 428 can present a survey whenthe data item managing application 424-1 is first installed at themobile computing device 400. See FIG. 5 for examples surveys that thesurveyor 428 can generate, and present.

The data item determiner 432 can determine the data items 472. The dataitem determiner 432 can receive the data items 472 from the server 200as a push message. The data item determiner 432 can present a graphicaluser interface (GUI) that allows the user of the mobile computing device400 to generate a data item 472. The GUI can also accept a search stringthat the data item determiner 432 can utilize to generate a searchquery. The data item determiner 472 can transmit the search query to aserver (e.g., the server 200, or a search server), and receive the dataitems 472 as search results. See FIG. 6A-C for example implementationsof the data item determiner 432.

The data item managing application 424-1 generates a request 450. Therequest 450 may be to determine a display order for the data items 472.In other words, the request 450 may be to order the data items 472 basedon the contextual data 456. The request 450 can include a device ID 452that identifies the mobile computing device 400. The request 450 caninclude a user ID 454 that identifies a user of the mobile computingdevice 400. The request 450 may include the contextual data 456 from thecontextual data store 442. Specifically, the data item managingapplication 424-1 can include the sensor values 406, the applicationdata parameters 426, and/or the survey data parameters 430 in therequest 450. In some implementations, the request 450 may also includethe data items 472. In such implementations, the request 450 can includethe entirety of the data items 472, or only information that identifiesthe data items 472 (e.g., data item identifiers (IDs) that identify thedata items 472). Upon generating the request 450, the data item managingapplication 424-1 can transmit the request 450 to the server 200 via thetransceiver 420.

The data item managing application 424-1 can generate the request 450 inresponse to receiving a user input. For example, the data item managingapplication 424-1 may detect a user selection of a graphical userinterface (GUI) element (e.g., a button). In this example, the data itemmanaging application 424-1 can generate, and transmit the request upondetecting the user selection of the GUI element. The user input thattriggers the generation, and transmission of the request 450 may includea user input to refresh the data items 472. Alternatively oradditionally, the data item managing application 424-1 may generate therequest 450 periodically (e.g., once a day, once a week, etc.).Alternatively or additionally, the data item managing application 424-1may generate the request 450 when the data item managing application424-1 is launched. For example, the mobile computing device 400 maydisplay an icon for the data item managing application 424-1 (e.g., theicon 425 shown in FIG. 1 ). Upon detecting a user selection of the icon,the mobile computing device 400 can launch the data item managingapplication 424-1, and the data item managing application 424-1 cangenerate and transmit the request 450 upon being launched.

The data item managing application 424-1 may receive an ordered list 470of the data items 472. The data item managing application 424-1 canreceive the ordered list 470 from the server 200. The data item managingapplication 424-1 can receive the ordered list 470 in response totransmitting the request 450. Alternatively, the ordered list 470 may bepushed to the data item managing application 424-1 without sending withrequest 450. The ordered list 470 may specify a display order for thedata items 472. In other words, the ordered list 470 can specify theorder in which the data items 472 are to be displayed at the mobilecomputing device 400. The ordered list 470 can specify the display orderby indicating the score 474 for each data item 472. Higher scores 474may indicate a higher rank in the display order. For example, if a firstscore 474-1 of a first data item 472-1 is higher than a second score474-2 of a second data item 472-1, then the first data item 472-1 rankshigher than the second data item 472-2 in the display order.Accordingly, the first data item 472-1 is displayed above the seconddata item 472-2 in the list of data items 472. In other words, the firstdata item 472-1 is displayed towards the top of the list of data items472, while the second data item 472-2 is displayed towards the bottom ofthe list of data items 472.

The renderer 434 renders the data items 472 on the touchscreen display402. For each data item 472, the renderer 434 can display a text string228, an image 230, a video 232, and/or a link 234 that is associatedwith the data item 472. The renderer 434 can also display a timeduration 238, a popularity, and/or a category 242 for the data item 472.The renderer 434 can utilize the scores 474 of the data items 472 todetermine the display order of the data items 472. In other words, therenderer 434 can display the data items 472 based on the scores 474 ofthe data items 472. For example, the renderer 434 can display the dataitems 472 such that the data item 472 with the highest score 474 isdisplayed at the top of the list of data items 472, and the data item472 with the lowest score 474 is displayed at the bottom of the list ofdata items 472.

FIG. 5 illustrates example surveys 500 that the mobile computing device400 can generate, and present to a user of the mobile computing device400. Specifically, the surveyor 428 can generate the surveys 500 inorder to capture survey data parameters 430. Each survey 500 may includeone or more questions that prompt the user of the mobile computingdevice 400 for an answer. The surveyor 428 can capture theuser-specified answer to a question in a survey as a survey dataparameter 430. Referring to the first survey 500-1, the surveyor 428 canrequest the user of the mobile computing device 400 to specify theuser's current ability to focus on a scale of 1 to 5. The surveyor 428can capture the user's response to this question as a first survey dataparameter 430-1. In the example of FIG. 5 , the user indicated that theuser is “very focused”. In this example, the server 200 can identify thedata items 472 that require a high degree of focus, and rank theidentified data items 472 higher in the display order. For example, theserver 200 can rank the data items 472 in the cognitively demandingcategory higher than other data items 472, so that the data items 472 inthe cognitively demanding category are displayed towards the top of thelist of data items 472.

Referring to the second survey 500-2, the surveyor 428 can request theuser to specify the times during which the user can focus the most. Thesurveyor 428 can capture the start time specified by the user as asecond survey data parameter 430-2, and the end time specified by theuser as a third survey data parameter 430-3. The mobile computing device400 can include the second survey data parameter 430-2, and the thirdsurvey data parameter 430-3 in the request 450. During the time periodindicated by the second survey data parameter 430-2 and the third surveydata parameter 430-3, the server 200 can boost the scores 474 for dataitems 472 that require a relatively high degree of cognition (e.g.,brain arousal). For example, the server 200 may score data items 472 inthe cognitively demanding category higher than data items 472 in therote category.

Referring to the third survey 500-3, the surveyor 428 can prompt theuser to select a beverage that the user drinks, and specify the timesduring the day at which the user consumes the selected beverage(s). Thesurveyor 428 can store the selected beverage(s) as a fourth survey dataparameter 430-4, and the time at which the user consumes the beverage asa fifth survey data parameter 430-5. The server 200 can utilize thefourth survey data parameter 430-4 and the fifth survey data parameter430-5 in determining the display order for the data items 472. Theserver 200 can estimate the effect of the beverage(s) indicated by thefourth survey data parameter 430-4 on the user's brain. For example, ifthe fourth survey data parameter 430-4 and the fifth survey dataparameter 430-5 indicate that the user regularly consumes a coffee at 3pm, then the server 200 can boost the scores 474 for data items 472 inthe cognitively demanding category by one, and decrease the scores 474for data items 472 in the rote category by one from 3 pm to 5 pm. Inthis example, the time period from 3 pm to 5 pm represents a timeduration during which the user may be more effective at performingcognitively demanding tasks due to the stimulating effect of coffee onthe brain.

In general, the surveyor 428 can prompt the user to specify the name ofa stimulant that the user may have consumed, and/or is planning onconsuming. The surveyor 428 can also prompt for a quantity of thestimulant. The quantity may be referred to as a dosage level. Thesurveyor 428 can also prompt for a time at which the user consumed thestimulant, or is planning on consuming the stimulant. Examples ofstimulants include ephedrine, amphetamine, and caffeine that may beincluded in caffeinated beverages (e.g., 5 Hour Energy, Red Bull,coffee, tea, etc.) or caffeine pills. The stimulant can include anysubstance that tends to increase the electrical activity of the brain.

Referring to the fourth survey 500-4, the surveyor 428 can prompt theuser to specify the times during which the user normally exercises. Thesurveyor 428 can store these times as a sixth survey data parameter430-6, and a seventh survey data parameter 430-7. The server 200 canutilize the sixth survey data parameter 430-6 and the seventh surveydata parameter 430-7 in determining the display order for the data items472. In some examples, the server 200 can assign higher scores 474 fordata items 472 in the mnemonic category than data items 472 in the rotecategory. After exercising, a user may be more effective at performingtasks that involve memorizing information instead of performing routinetasks. Hence, by assigning higher scores 474 to mnemonic tasks and lowerscores 474 to rote tasks, the server 200 can cause the mnemonic tasks tobe ranked higher in the display order than rote tasks.

Referring to the fifth survey 500-5, the surveyor 428 can prompt theuser to specify the times during which the user normally sleeps. Thesleep times can be captured, and sent to the server 200 as the eightsurvey data parameter 430-8, and the ninth survey data parameter 430-9.The server 200 can utilize the eight survey data parameter 430-8, andthe ninth survey data parameter 430-9 in determining the display orderfor the data items 472. For example, the server 200 can assign higherscores 474 to cognitively demanding tasks and creative tasks after theuser wakes up because users may be more effective at such tasks soonafter waking up. Similarly, the server 200 can assign higher scores 474to routine tasks and lower scores 474 to cognitively demanding taskswhen the user is about to go to sleep because users may be moreeffective at routine tasks when they are about to go to sleep.

Referring to the sixth survey 500-6, the surveyor 428 can prompt theuser to specify when the user eats meals, and the size of the meals. Thesurveyor 428 can capture the meal time(s) as a tenth survey dataparameter 430-10, and the meal size(s) as an eleventh survey dataparameter 430-11. The server 200 can utilize the meal time(s), and themeal size(s) to determine the display order for the data items 472. Forexample, a user may be less effective at cognitively demanding tasks andmore effective at routine tasks soon after consuming a large meal. Inthis example, the server 200 can assign higher scores 474 for data items472 in the rote category, and lower scores 474 for data items 472 in thecognitively demanding category.

FIG. 6A illustrates an example implementation in which the data itemdeterminer 432 determines the data items 472 by receiving the data items472 as search results 620 in response to transmitting a search request610. The mobile computing device 400 may receive a search query 612 viaa search box 614 that can accept textual input, an audio input interface616 that can accept audio input, or an image input interface 618 thatcan accept an image as an input. Upon receiving the search query 612,the data item determiner 432 can generate the search request 610. Thesearch request 610 can include the search query 612. Upon generating thesearch request 610, the data item determiner 432 can transmit the searchrequest 610 to a server (e.g., the server 200). The server 200 canidentify data item records 222 that may be relevant to the search query612. The server 200 may utilize various techniques to identify therelevant data item records 222. For example, the server 200 may utilizean inverted index that maps keywords to record IDs 224 that identify thedata item records 222. Specifically, the server 200 can query theinverted index with search terms from the search query 612 to identifythe relevant data item records 222. Upon identifying the relevant dataitem records 222, the server 200 can retrieve information regarding thedata items 472 from their corresponding data item records 222, and sendthe information to the mobile computing device 400 as the search results620. Hence, the data item determiner 432 can receive the data items 472as search results 620.

FIG. 6B illustrates an example implementation in which the data itemdeterminer 432 receives the data items 472 in a push message 630. Incontrast to the implementation exemplified in FIG. 6A, the data itemdeterminer 432 receives the data items 472 without explicitly requestingthe data items 472. The server 200 may determine which data items 472are to be pushed to the mobile computing device 400. For example, anadministrator may instruct the server 200 to send a particular set ofdata items 472 to the mobile computing device 400, and the server 200can send the data items 472 specified by the administrator to the mobilecomputing device 400.

FIG. 6C illustrates an example implementation in which the data itemdeterminer 432 allows the user of the mobile computing device 400 togenerate the data item(s) 472 at the mobile computing device 400. Thedata item determiner 432 can display a data item generation screen 640.The data item generation screen 640 may include various graphical userinterface elements that allow the user of the mobile computing device400 to specify elements of the data item 472 that is being generated.For example, a text box 642 can receive a textual input. A file uploadinterface 644 can allow the user to upload a file. An audio inputinterface 646 can receive audio input. An image input interface 648 canreceive an image as an input. The data item generation screen 640 mayinclude a submit button 650. Upon detecting a user selection of thesubmit button 650, the data item determiner 432 can generate a data item472 based on the information provided by the user via the text box 642,the file upload interface 644, the audio input interface 646, and/or theimage input interface 648.

FIG. 7 illustrates an example method 700 for re-arranging the displayorder of data items based on contextual data. The method 700 may beexecuted by a mobile computing device (e.g., the mobile computing device400 shown in FIG. 4 ). The method 700 may be implemented as a set ofcomputer-readable instructions that are executed by a computingprocessor (e.g., the computing processor 410 of the mobile computingdevice 400 shown in FIG. 4 ). In general, the mobile computing devicedisplays a list of data items (at 710). At 720, the mobile computingdevice detects a trigger to re-order the data items in the list. Themobile computing device captures contextual data (at 730). At 740, themobile computing device generates a request to re-order the data items.The mobile computing device transmits the request to a server (at 750).Upon transmitting the request, the mobile computing device receives anordered list of the data items (at 760). The mobile computing devicere-arranges the display of the data items based on the order indicatedin the ordered list (at 770).

Referring to 710, the mobile computing device may display an icon for adata item managing application. The data item managing applicationmanages data items. As described herein, the data items may be referredto as tasks, and the data item managing application may be referred toas a task management application, a to-do list application, and/or areminders application. The mobile computing device may receive a userselection of the icon for the data item managing application (at 712).Upon receiving the user selection of the icon, the mobile computingdevice can launch the data item managing application (at 714). Launchingthe data item managing application may include sending an instruction toa kernel of the operating system to start a process for the data itemmanaging application. To start the process, the kernel may allocatememory for bookkeeping and then load the computer-readable instructionsthat correspond with the data item managing application. Launching thedata item managing application may include additional or alternativeoperations. When the data item managing application launches, the mobilecomputing device displays the data items via a graphical user interface(GUI) of the data item managing application (at 716).

At 720, the mobile computing device detects a trigger to re-order (e.g.,re-arrange) the data items that the data item managing applicationdisplays. Re-ordering the data items may refer to re-arranging a displayorder of the data items. Detecting the trigger to re-arrange the dataitems may include receiving a user input via the GUI (at 722). Forexample, the data item managing application can display auser-selectable button, and the trigger to re-order the data items mayinclude detecting a user selection of the button. Alternatively oradditionally, detecting the trigger to re-arrange the data items mayinclude launching the data item managing application (at 724). In otherwords, when the data item managing application is launched, the displayorder of the data items can be re-arranged. Alternatively oradditionally, the display order of the data items can be re-arrangedperiodically (e.g., once a day, once a week, etc.) (at 726).

At 730, the mobile computing device captures contextual data. Thecontextual data may indicate a context of the mobile computing device.Capturing the contextual data may include capturing sensor values (at732), capturing application data parameters (at 734), and/or capturingsurvey data parameters (at 736). Referring to 732, the mobile computingdevice may receive sensor values from various sensor devices via shortrange communications (e.g., Bluetooth, Bluetooth Low Energy, NFC, Wi-Fi,etc.) (at 732-1). For example, the mobile computing device may receivesensor values from the sensor devices 20 shown in FIG. 1 . Also, themobile computing device may utilize sensors that are inside the mobilecomputing device to record sensor measurements (at 732-2). For example,the mobile computing device may utilize the sensor(s) 404, and/or theon-die sensor(s) 418 shown in FIG. 4 .

Referring to 734, the mobile computing device can utilize one or moreapplication programming interfaces (APIs) to retrieve information thatmay be associated with other devices and/or applications (at 734-1). Forexample, the mobile computing device can utilize an API to retrieveinformation regarding the user's food consumption, water consumption,sleep patterns, etc. At 734-2, the mobile computing device may receiveapplication data parameters from other applications that are installedat the mobile computing device.

Referring to 736, the mobile computing device can utilize one or moresurveys to collect contextual data. Contextual data that is collectedusing surveys may be referred to as survey data parameters. At 736-1,the mobile computing device can display one or more surveys. Each surveycan include one or more questions that prompt the user for an answer.For example, a survey question can ask the user about the user'scaffeine consumption. See FIG. 5 for example surveys. At 736-2, themobile computing device receives responses to the surveys. The responsescan be stored as survey data parameters.

At 740, the mobile computing device generates a request to re-order thedata items. Generating the request may include instantiating a datacontainer (at 742). The data container may include a JSON object, an XMLfile, etc. At 744, the mobile computing device writes the contextualdata, that the mobile computing device captured at 730, to the datacontainer. Writing the contextual data may include writing the sensorvalues, the application data parameters, and/or the survey dataparameters. At 746, the mobile computing device may write a user IDand/or a device ID to the data container. The user ID may include astring that identifies a user of the mobile computing device. The deviceID may include a string that identifies the mobile computing device. At748, the mobile computing device may write information regarding thedata items to the data container. The mobile computing device may writethe entirety of the data items (e.g., a text string, an image, a video,a link, and/or a category associated with the data item). Alternatively,the mobile computing device may only write information that identifiesthe data items (e.g., data item IDs).

At 750, the mobile computing device transmits the request to a server(e.g., the server 200 shown in FIG. 2A). As described in relation toFIGS. 2A-3B, the server receives the request, and utilizes thecontextual data specified in the request to determine a display orderfor the data items associated with the mobile computing device. Upondetermining the display order for the data items, the server canindicate the display order to the mobile computing by sending an orderedlist of data items.

At 760, the mobile computing device receives a display order for thedata items. Receiving the display order may include receiving an orderedlist of the data items, and the ordered list may indicate the displayorder for the data items. Receiving the ordered list may includereceiving a data container (at 762). The data container may includeinformation regarding the data items. In some implementations, the datacontainer may include the entirety of the data items. For example, thedata container may include text strings, images, videos, and/or linksthat are associated with the data items. Alternatively, the datacontainer may only include information that identifies the data items.For example, the data container may include data item IDs that identifythe data items that are stored at the mobile computing device. Receivingthe display order of the data items may include receiving scores for thedata items (at 764). The score for a data item can indicate the rank ofthe data item in the display order. For example, a data item with ascore of 0.9 can be placed above a data item with a score of 0.5.

At 770, the mobile computing device re-arranges the display of the dataitems based on the display order received at 760. For example, themobile computing device can re-arrange the data items such that the dataitems are arranged based on descending scores (at 772). In other words,the data items with relatively high scores appear towards the top of thelist, and data items with relatively low scores appear towards thebottom of the list. Put another way, the data item with the highestscore appears at the top of the list, and the data item with the lowestscore appears at the bottom of the list.

If multiple data items have the same score, then the mobile computingdevice may utilize additional information to determine the order of suchdata items (at 774). The mobile computing device can arrange data itemswith the same score based on a time duration associated with the dataitems (at 774-1). For example, the data item with the shorter timeduration can be placed above the data item with the longer timeduration. The mobile computing device can arrange data items with thesame score based on a size of the data items (at 774-2). For example,the smaller data item can be placed above the larger data item. Themobile computing device can arrange data items with the same score basedon the length of a string in the data item (at 774-3). For example, thedata item with the smaller string can be placed above the data item withthe longer string.

The mobile computing device can arrange data items with the same scorebased on calendar availability (at 774-4). The mobile computing devicecan determine a start time of the next calendar event stored in acalendar application that is installed at the mobile computing device.The mobile computing device can calculate an available time by computinga time difference between a current time, and the start time of the nextcalendar event. Data items that are associated with a time duration thatis less than the available time can be placed above the data items thatare associated with a time duration that is greater than the availabletime.

Various implementations of the systems and techniques described here canbe realized in digital electronic and/or optical circuitry, integratedcircuitry, specially designed ASICs (application specific integratedcircuits), computer hardware, firmware, software, and/or combinationsthereof. These various implementations can include implementation in oneor more computer programs that are executable and/or interpretable on aprogrammable system including at least one programmable processor, whichmay be special or general purpose, coupled to receive data andinstructions from, and to transmit data and instructions to, a storagesystem, at least one input device, and at least one output device.

These computer programs (also known as programs, software, softwareapplications or code) include machine instructions for a programmableprocessor, and can be implemented in a high-level procedural and/orobject-oriented programming language, and/or in assembly/machinelanguage. As used herein, the terms “machine-readable medium” and“computer-readable medium” refer to any computer program product,non-transitory computer readable medium, apparatus and/or device (e.g.,magnetic discs, optical disks, memory, Programmable Logic Devices(PLDs)) used to provide machine instructions and/or data to aprogrammable processor, including a machine-readable medium thatreceives machine instructions as a machine-readable signal. The term“machine-readable signal” refers to any signal used to provide machineinstructions and/or data to a programmable processor.

Implementations of the subject matter and the functional operationsdescribed in this specification can be implemented in digital electroniccircuitry, or in computer software, firmware, or hardware, including thestructures disclosed in this specification and their structuralequivalents, or in combinations of one or more of them. Moreover,subject matter described in this specification can be implemented as oneor more computer program products, i.e., one or more modules of computerprogram instructions encoded on a computer readable medium for executionby, or to control the operation of, data processing apparatus. Thecomputer readable medium can be a machine-readable storage device, amachine-readable storage substrate, a memory device, a composition ofmatter effecting a machine-readable propagated signal, or a combinationof one or more of them. The terms “data processing apparatus”,“computing device” and “computing processor” encompass all apparatus,devices, and machines for processing data, including by way of example aprogrammable processor, a computer, or multiple processors or computers.The apparatus can include, in addition to hardware, code that creates anexecution environment for the computer program in question, e.g., codethat constitutes processor firmware, a protocol stack, a databasemanagement system, an operating system, or a combination of one or moreof them. A propagated signal is an artificially generated signal, e.g.,a machine-generated electrical, optical, or electromagnetic signal, thatis generated to encode information for transmission to suitable receiverapparatus.

A computer program (also known as an application, program, software,software application, script, or code) can be written in any form ofprogramming language, including compiled or interpreted languages, andit can be deployed in any form, including as a stand-alone program or asa module, component, subroutine, or other unit suitable for use in acomputing environment. A computer program does not necessarilycorrespond to a file in a file system. A program can be stored in aportion of a file that holds other programs or data (e.g., one or morescripts stored in a markup language document), in a single filededicated to the program in question, or in multiple coordinated files(e.g., files that store one or more modules, sub programs, or portionsof code). A computer program can be deployed to be executed on onecomputer or on multiple computers that are located at one site ordistributed across multiple sites and interconnected by a communicationnetwork.

The processes and logic flows described in this specification can beperformed by one or more programmable processors executing one or morecomputer programs to perform functions by operating on input data andgenerating output. The processes and logic flows can also be performedby, and apparatus can also be implemented as, special purpose logiccircuitry, e.g., an FPGA (field programmable gate array) or an ASIC(application specific integrated circuit).

Processors suitable for the execution of a computer program include, byway of example, both general and special purpose microprocessors, andany one or more processors of any kind of digital computer. Generally, aprocessor will receive instructions and data from a read only memory ora random access memory or both. The essential elements of a computer area processor for performing instructions and one or more memory devicesfor storing instructions and data. Generally, a computer will alsoinclude, or be operatively coupled to receive data from or transfer datato, or both, one or more mass storage devices for storing data, e.g.,magnetic, magneto optical disks, or optical disks. However, a computerneed not have such devices. Moreover, a computer can be embedded inanother device, e.g., a mobile telephone, a personal digital assistant(PDA), a mobile audio player, a Global Positioning System (GPS)receiver, to name just a few. Computer readable media suitable forstoring computer program instructions and data include all forms ofnon-volatile memory, media and memory devices, including by way ofexample semiconductor memory devices, e.g., EPROM, EEPROM, and flashmemory devices; magnetic disks, e.g., internal hard disks or removabledisks; magneto optical disks; and CD ROM and DVD-ROM disks. Theprocessor and the memory can be supplemented by, or incorporated in,special purpose logic circuitry.

To provide for interaction with a user, one or more aspects of thedisclosure can be implemented on a computer having a display device,e.g., a CRT (cathode ray tube), LCD (liquid crystal display) monitor, ortouch screen for displaying information to the user and optionally akeyboard and a pointing device, e.g., a mouse or a trackball, by whichthe user can provide input to the computer. Other kinds of devices canbe used to provide interaction with a user as well; for example,feedback provided to the user can be any form of sensory feedback, e.g.,visual feedback, auditory feedback, or tactile feedback; and input fromthe user can be received in any form, including acoustic, speech, ortactile input. In addition, a computer can interact with a user bysending documents to and receiving documents from a device that is usedby the user; for example, by sending web pages to a web browser on auser's client device in response to requests received from the webbrowser.

One or more aspects of the disclosure can be implemented in a computingsystem that includes a backend component, e.g., as a data server, orthat includes a middleware component, e.g., an application server, orthat includes a frontend component, e.g., a client computer having agraphical user interface or a Web browser through which a user caninteract with an implementation of the subject matter described in thisspecification, or any combination of one or more such backend,middleware, or frontend components. The components of the system can beinterconnected by any form or medium of digital data communication,e.g., a communication network. Examples of communication networksinclude a local area network (“LAN”) and a wide area network (“WAN”), aninter-network (e.g., the Internet), and peer-to-peer networks (e.g., adhoc peer-to-peer networks).

The computing system can include clients and servers. A client andserver are generally remote from each other and typically interactthrough a communication network. The relationship of client and serverarises by virtue of computer programs running on the respectivecomputers and having a client-server relationship to each other. In someimplementations, a server transmits data (e.g., an HTML page) to aclient device (e.g., for purposes of displaying data to and receivinguser input from a user interacting with the client device). Datagenerated at the client device (e.g., a result of the user interaction)can be received from the client device at the server.

While this specification contains many specifics, these should not beconstrued as limitations on the scope of the disclosure or of what maybe claimed, but rather as descriptions of features specific toparticular implementations of the disclosure. Certain features that aredescribed in this specification in the context of separateimplementations can also be implemented in combination in a singleimplementation. Conversely, various features that are described in thecontext of a single implementation can also be implemented in multipleimplementations separately or in any suitable sub-combination. Moreover,although features may be described above as acting in certaincombinations and even initially claimed as such, one or more featuresfrom a claimed combination can in some cases be excised from thecombination, and the claimed combination may be directed to asub-combination or variation of a sub-combination.

Similarly, while operations are depicted in the drawings in a particularorder, this should not be understood as requiring that such operationsbe performed in the particular order shown or in sequential order, orthat all illustrated operations be performed, to achieve desirableresults. In certain circumstances, multi-tasking and parallel processingmay be advantageous. Moreover, the separation of various systemcomponents in the embodiments described above should not be understoodas requiring such separation in all embodiments, and it should beunderstood that the described program components and systems cangenerally be integrated together in a single software product orpackaged into multiple software products.

A number of implementations have been described. Nevertheless, it willbe understood that various modifications may be made without departingfrom the spirit and scope of the disclosure. Accordingly, otherimplementations are within the scope of the following claims. Forexample, the actions recited in the claims can be performed in adifferent order and still achieve desirable results.

What is claimed is:
 1. A method comprising: at a mobile computing devicecomprising one or more processors, a short-range communicationsinterface, a non-transitory memory and a display: receiving, via alearning management application, a request to display a learning module;receiving, via the short-range communications interface, sensor valuesfrom a set of one or more sensor devices attached to a patient;displaying, on the display, a set of one or more survey questions; inresponse to displaying the set of one or more survey questions,receiving user-specified responses to the set of one or more surveyquestions; selecting, by the learning management application, a firstlearning module from a plurality of learning modules based on the sensorvalues received from the sensor devices attached to the patient and theuser-specified responses to the set of one or more survey questions; anddisplaying, by the learning management application, the first learningmodule on the display in response to receiving the request to displayingthe learning module.
 2. The method of claim 1, wherein the set of one ormore survey questions relate to a dietary intake of the patient; whereinthe set of one or more sensor devices includes a blood glucose monitorand an insulin pump; and wherein the sensor values include a bloodglucose measurement detected by the blood glucose monitor and an amountof insulin administered to the patient by the insulin pump.
 3. Themethod of claim 1, wherein the set of one or more survey questionsrelate to an exercise routine of the patient.
 4. The method of claim 1,wherein the set of one or more survey questions relate to a sleepschedule of the patient.
 5. The method of claim 1, wherein the set ofone or more sensor devices includes a wearable computing device thatdetects the sensor values and transmits the sensor values to the mobilecomputing device.
 6. The method of claim 1, wherein the set of one ormore sensor devices includes a heart rate monitor and the sensor valuesinclude a heart rate measurement detected by the heart rate monitor. 7.The method of claim 1, wherein the set of one or more sensor devicesincludes a blood glucose monitor and the sensor values include a bloodglucose measurement detected by the blood glucose monitor.
 8. The methodof claim 1, wherein displaying the first learning module comprises:displaying a list that includes at least a subset of the plurality ofthe learning modules; and displaying the first learning module at a topof the list.
 9. The method of claim 1, wherein selecting the firstlearning module comprises: determining respective relevance scores forthe plurality of learning modules based on the sensor values and theuser-specified responses to the set of one or more survey questions; andselecting the first learning module from the plurality of learningmodule in response to a first relevance score of the first learningmodule being greater than a remainder of the respective relevance scoresfor the plurality of learning modules.
 10. A mobile computing devicecomprising: one or more processors; a non-transitory memory; ashort-range communications interface; a display; and one or moreprograms stored in the non-transitory memory, which, when executed bythe one or more processors, cause the mobile computing device to:receive, via a learning management application, a request to display alearning module; receive, via the short-range communications interface,sensor values from a set of one or more sensor devices attached to apatient; display, on the display, a set of one or more survey questions;in response to displaying the set of one or more survey questions,receive user-specified responses to the set of one or more surveyquestions; select, by the learning management application, a firstlearning module from a plurality of learning modules based on the sensorvalues received from the sensor devices attached to the patient and theuser-specified responses to the set of one or more survey questions; anddisplay, by the learning management application, the first learningmodule on the display in response to receiving the request to displayingthe learning module.
 11. The mobile computing device of claim 10,wherein the set of one or more survey questions relate to a dietaryintake of the patient; wherein the set of one or more sensor devicesincludes a blood glucose monitor and an insulin pump; and wherein thesensor values include a blood glucose measurement detected by the bloodglucose monitor and an amount of insulin administered to the patient bythe insulin pump.
 12. The mobile computing device of claim 10, whereinthe set of one or more survey questions relate to an exercise routine ofthe patient.
 13. The mobile computing device of claim 10, wherein theset of one or more survey questions relate to a sleep schedule of thepatient.
 14. The mobile computing device of claim 10, wherein the set ofone or more sensor devices includes a wearable computing device thatdetects the sensor values and transmits the sensor values to the mobilecomputing device.
 15. The mobile computing device of claim 10, whereinthe set of one or more sensor devices includes a heart rate monitor andthe sensor values include a heart rate measurement detected by the heartrate monitor.
 16. The mobile computing device of claim 10, wherein theset of one or more sensor devices includes a blood glucose monitor andthe sensor values include a blood glucose measurement detected by theblood glucose monitor.
 17. The mobile computing device of claim 10,wherein displaying the first learning module comprises: displaying alist that includes at least a subset of the plurality of the learningmodules; and displaying the first learning module at a top of the list.18. The mobile computing device of claim 10, wherein selecting the firstlearning module comprises: determining respective relevance scores forthe plurality of learning modules based on the sensor values and theuser-specified responses to the set of one or more survey questions; andselecting the first learning module from the plurality of learningmodule in response to a first relevance score of the first learningmodule being greater than a remainder of the respective relevance scoresfor the plurality of learning modules.
 19. A non-transitory memorystoring one or more programs, which, when executed by one or moreprocessors of a mobile computing device with a display and a short-rangecommunications interface, cause the mobile computing device to: receive,via a learning management application, a request to display a learningmodule; receive, via the short-range communications interface, sensorvalues from a set of one or more sensor devices attached to a patient;display, on the display, a set of one or more survey questions; inresponse to displaying the set of one or more survey questions, receiveuser-specified responses to the set of one or more survey questions;select, by the learning management application, a first learning modulefrom a plurality of learning modules based on the sensor values receivedfrom the sensor devices attached to the patient and the user-specifiedresponses to the set of one or more survey questions; and display, bythe learning management application, the first learning module on thedisplay in response to receiving the request to displaying the learningmodule.
 20. The method of claim 1, wherein the set of one or more surveyquestions relate to a dietary intake of the patient; wherein the set ofone or more sensor devices includes a blood glucose monitor and aninsulin pump; and wherein the sensor values include a blood glucosemeasurement detected by the blood glucose monitor and an amount ofinsulin administered to the patient by the insulin pump.